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# -*- coding: utf-8 -*-
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#
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import re
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from six import string_types
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import base64
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import os
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import time
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import hashlib
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from io import StringIO
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import paramiko
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import sshpubkeys
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from itsdangerous import (
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TimedJSONWebSignatureSerializer, JSONWebSignatureSerializer,
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BadSignature, SignatureExpired
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)
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from django.conf import settings
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from .http import http_date
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UUID_PATTERN = re.compile(r'[0-9a-zA-Z\-]{36}')
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class Singleton(type):
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def __init__(cls, *args, **kwargs):
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cls.__instance = None
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super().__init__(*args, **kwargs)
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def __call__(cls, *args, **kwargs):
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if cls.__instance is None:
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cls.__instance = super().__call__(*args, **kwargs)
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return cls.__instance
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else:
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return cls.__instance
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class Signer(metaclass=Singleton):
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"""用来加密,解密,和基于时间戳的方式验证token"""
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def __init__(self, secret_key=None):
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self.secret_key = secret_key
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def sign(self, value):
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s = JSONWebSignatureSerializer(self.secret_key, algorithm_name='HS256')
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return s.dumps(value).decode()
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def unsign(self, value):
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if value is None:
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return value
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s = JSONWebSignatureSerializer(self.secret_key, algorithm_name='HS256')
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try:
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return s.loads(value)
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except BadSignature:
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return None
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def sign_t(self, value, expires_in=3600):
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s = TimedJSONWebSignatureSerializer(self.secret_key, expires_in=expires_in)
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return str(s.dumps(value), encoding="utf8")
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def unsign_t(self, value):
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s = TimedJSONWebSignatureSerializer(self.secret_key)
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try:
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return s.loads(value)
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except (BadSignature, SignatureExpired):
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return None
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def ssh_key_string_to_obj(text, password=None):
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key = None
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try:
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key = paramiko.RSAKey.from_private_key(StringIO(text), password=password)
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except paramiko.SSHException:
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pass
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try:
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key = paramiko.DSSKey.from_private_key(StringIO(text), password=password)
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except paramiko.SSHException:
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pass
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return key
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def ssh_pubkey_gen(private_key=None, username='jumpserver', hostname='localhost', password=None):
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if isinstance(private_key, bytes):
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private_key = private_key.decode("utf-8")
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if isinstance(private_key, string_types):
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private_key = ssh_key_string_to_obj(private_key, password=password)
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if not isinstance(private_key, (paramiko.RSAKey, paramiko.DSSKey)):
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raise IOError('Invalid private key')
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public_key = "%(key_type)s %(key_content)s %(username)s@%(hostname)s" % {
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'key_type': private_key.get_name(),
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'key_content': private_key.get_base64(),
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'username': username,
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'hostname': hostname,
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}
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return public_key
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def ssh_key_gen(length=2048, type='rsa', password=None, username='jumpserver', hostname=None):
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"""Generate user ssh private and public key
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Use paramiko RSAKey generate it.
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:return private key str and public key str
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"""
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if hostname is None:
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hostname = os.uname()[1]
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f = StringIO()
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try:
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if type == 'rsa':
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private_key_obj = paramiko.RSAKey.generate(length)
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elif type == 'dsa':
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private_key_obj = paramiko.DSSKey.generate(length)
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else:
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raise IOError('SSH private key must be `rsa` or `dsa`')
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private_key_obj.write_private_key(f, password=password)
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private_key = f.getvalue()
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public_key = ssh_pubkey_gen(private_key_obj, username=username, hostname=hostname)
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return private_key, public_key
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except IOError:
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raise IOError('These is error when generate ssh key.')
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def validate_ssh_private_key(text, password=None):
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if isinstance(text, bytes):
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try:
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text = text.decode("utf-8")
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except UnicodeDecodeError:
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return False
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key = ssh_key_string_to_obj(text, password=password)
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if key is None:
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return False
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else:
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return True
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def validate_ssh_public_key(text):
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ssh = sshpubkeys.SSHKey(text)
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try:
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ssh.parse()
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except (sshpubkeys.InvalidKeyException, UnicodeDecodeError):
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return False
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except NotImplementedError as e:
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return False
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return True
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def content_md5(data):
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"""计算data的MD5值,经过Base64编码并返回str类型。
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返回值可以直接作为HTTP Content-Type头部的值
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"""
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if isinstance(data, str):
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data = hashlib.md5(data.encode('utf-8'))
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value = base64.b64encode(data.hexdigest().encode('utf-8'))
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return value.decode('utf-8')
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def make_signature(access_key_secret, date=None):
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if isinstance(date, bytes):
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date = bytes.decode(date)
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if isinstance(date, int):
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date_gmt = http_date(date)
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elif date is None:
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date_gmt = http_date(int(time.time()))
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else:
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date_gmt = date
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data = str(access_key_secret) + "\n" + date_gmt
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return content_md5(data)
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def encrypt_password(password, salt=None):
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from passlib.hash import sha512_crypt
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if password:
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return sha512_crypt.using(rounds=5000).hash(password, salt=salt)
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return None
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def get_signer():
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signer = Signer(settings.SECRET_KEY)
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return signer
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def ensure_last_char_is_ascii(data):
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remain = ''
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